The Sun's Light: 8mins, 2degrees & Us

  • Thread starter Thread starter Sameer
  • Start date Start date
  • Tags Tags
    Light
AI Thread Summary
The sun's light takes 8 minutes to reach Earth, meaning the sun's current position is actually where it was 8 minutes ago. As Earth rotates 2 degrees in that time, one might think the sun appears 2 degrees west, but this is a misconception. The angular displacement is negligible when considering the speed of Earth's rotation compared to the speed of light. An analogy involving rain illustrates how movement affects perceived angles, emphasizing that the sun's apparent position remains largely unchanged. Additionally, light refraction in the atmosphere can affect the sun's perceived position, particularly during sunrise and sunset.
Sameer
Messages
4
Reaction score
0
We know that the sun's light takes 8mins to reach the Earth.
That means the sun we see now is actually what the sun was before 8 mins.
We also know that Earth rotates on its own axis.
It rotates 2 degrees in 8 mins.
So when actually the light traveled frowm the sun, we moved 2 degrees East.
So the actuall position of the Sun is 2 degrees west.
Aint I right? Or its just a misconception??
 
Science news on Phys.org
That's a misconception. The correct angular displacement would be approximately the speed of rotation/translation divided by the speed of light - which is negligible.
 
why is it so?? see I am still in lower classes and I don't know about this so kindly explain...
 
Sameer,

There are a couple of ways of thinking about this.

First, imagine it's raining and the rain is falling straight down. You begin to walk, slowly at first. You will notice that the rain no longer appears to be falling straight down but is coming down at a slight angle. Now walk a little faster! You see the "slant" angle of the rain increase.

The deviation from the vertical of the falling rain depends on both the speed at which the drops are falling and the speed at which you are walking or running. Whatever your speed, it is clear that the faster the drops are falling, the more nearly vertical their descent becomes. Imagine them coming down REALLY fast - say at the speed of light! The raindrops will appear to you as coming straight down which gives the "true" direction of the source.

Another way of thinking about it is like this: Suppose the Earth is fixed and it is Sun that is moving through space at a speed equaling the actual sum of the Earth's speed in its orbit around the Sun plus its rotational velocity.

The Sun would appear to be moving at something like 67,000 miles per hour. In 8 minutes or about 1/7 hour, the Sun will have moved almost 9,000 miles. That sounds like a lot but to find the angular deviation of the Sun from its "true" or "present" position, you have to compare that 9,000 miles with the Sun's distance, about 93 MILLION miles. That works out to about 0.0004 radians or about 0.006 degrees or about 20 seconds of arc!
 
Last edited:
Thank you

Thank you so much for clearing the doubt :smile:
 
I think one more factor; the bending of light due to the refraction of light through air is to be accounted. Isn’t it? Especially at morning and evening this affects a lot.
 

Similar threads

What Would Happen if the Sun Suddenly Disappeared?
Replies
14
Views
9K
Why does it take thousands of years for light to reach the surface of the Sun?
Replies
12
Views
2K
Wave / particle duality of light
Replies
4
Views
2K
B What If We Could See the Past by Placing a Mirror on the Sun?
Replies
13
Views
2K
On Rayleigh Scattering and UV Light Absorption
Replies
4
Views
7K
I Factors that influence depth of field
2
Replies
77
Views
5K
Regarding Polarizer and viewing sun
Replies
3
Views
2K
Is comunication faster that light possible: yes( maybe )
Replies
2
Views
1K
How Long for a Beam of Light to Reach Earth?
Replies
21
Views
1K
I Can someone falsify this analogy contradicting time dilation?
Replies
25
Views
2K

Hot Threads

Recent Insights

Back
Top